Optimizing the Effect of pH and Temperature on Atrazine Degradation by Bacillus safensis strain BUK_BCH_BTE6 an Efficient Atrazine Tolerating Bacteria from an Agricultural Soil in Kura Local Government Area of Kano State, Nigeria

F. Muhammad, F. Yusuf, F. A. Ahmad, U. Shehu, H. Yakasai
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引用次数: 3

Abstract

The widespread and long term use of atrazine results in high residue levels of atrazine in soil, which further causes water contamination, it is considered as an endocrine disruptor and is potentially carcinogenic. Microbial degradation of herbicide represents a time cost effective way of eco-restoration. This research was aimed at isolating and characterizing bacteria capable of degrading and utilizing atrazine as a sole carbon source. An enrichment method was used to isolate the bacteria on mineral salt media (MSM) following serial dilution. The isolate was identified morphologically, biochemically and molecularly as Bacillus safensis strain BUK_BCH_BTE6 based on 16S rRNA gene sequence and molecular phylogenetic analysis. The effect of pH and temperature on the degradation of atrazine was studied in MSM medium supplemented with atrazine as sole carbon source. Growth and degradation of atrazine in this isolate was optimal at pH 7.5 and temperature of 35 °C. Bacillus safensis is highly efficient in atrazine degradation with an optimum range of pH and temperature. Bacillus safensis could be a suitable candidate for bioremediation of atrazine polluted sites.
优化pH和温度对尼日利亚卡诺州Kura地方政府区农业土壤中高效抗阿特拉津细菌BUK_BCH_BTE6菌株降解阿特拉津的影响
阿特拉津的广泛和长期使用导致土壤中的阿特拉津残留水平很高,这进一步造成水污染,它被认为是一种内分泌干扰物,具有潜在致癌性。微生物降解除草剂是一种经济有效的生态恢复方法。本研究旨在分离和表征能够降解和利用阿特拉津作为唯一碳源的细菌。采用富集法在无机盐培养基(MSM)上连续稀释分离细菌。根据16S rRNA基因序列和分子系统发育分析,从形态、生化和分子上鉴定该分离物为萨福芽孢杆菌BUK_BCH_BTE6菌株。在以阿特拉津为唯一碳源的MSM培养基中,研究了pH和温度对阿特拉津降解的影响。该菌株在pH 7.5和温度35℃条件下生长和降解阿特拉津效果最佳。在适宜的pH和温度范围内,萨芬芽孢杆菌对阿特拉津的降解效率较高。萨夫芽孢杆菌可能是阿特拉津污染场地生物修复的合适候选者。
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